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Background: MEIS proteins are essential homeobox transcription factors that play critical roles in development and have been increasingly implicated in oncogenesis, including breast cancer. Methods: In this study, we identified and characterized novel small-molecule MEIS2 inhibitors through in silico docking targeting the active region of the human MEIS2 homeobox domain. Lead candidates MEISi-2E, MEISi-3, and MEISi-4 were identified with binding energies ranging from −3.0 to −3.90 kcal/mol. The inhibitory potential of these molecules was validated in vitro using a species-conserved MEIS-Luciferase Reporter construct containing the TGACAG targeted locus. Results: Our results demonstrate that MEISi-2E, MEISi-3, and MEISi-4 significantly suppress MEIS-driven luciferase activity and downregulate the expression of Meis1, Meis2, and downstream genes such as IL17RB, CDH1, EGR2, PAX6, and SERPINE1 while upregulating negative regulator TGIF1 and SOX3. In breast cancer cell lines, these inhibitors exhibited potent growth inhibition, with MEISi-3 showing an exceptional IC50 as low as 0.1 μM in SK-BR-3 cells. Mechanistic studies using flow cytometry revealed that these inhibitors induce dose-dependent apoptosis and necrosis. Importantly, the novel inhibitors showed minimal toxicity to healthy human dermal and MRC5 fibroblasts, suggesting a favorable safety profile. Conclusions: These findings establish these small molecules as promising therapeutic candidates for targeting MEIS2-dependent pathways in breast cancer.
Kocabaş et al. (Mon,) studied this question.
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